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The estimation of genetic variability and genetic divergence of some advance lines of sesame based on morphological traits

Authors

DOI:

https://doi.org/10.14719/pst.1407

Keywords:

Sesame, Genetic variation, Genetic advance, Genotypic and phenotypic co-efficient of variation, Heritability, Genetic diversity

Abstract

In plant breeding research, naturally existing genetic variability has been successfully utilized to some extent for sustainable production of desirable crops and the diversity in plant genetic resources is most useful part to the breeders . The present experimentwas conducted to estimate thegenetic variation as well as divergence also of 29 sesame genotypes based on morphological traits. The high genotypic co-efficient of variation (GCV) and phenotypic co-efficient variation (PCV) observed for number of branches / plant and also for no. of capsules / plant. High heritability coupled with high genetic advance was estimated against seed yield / plant, number of branches / plant and capsules/ plant and HI indicating predominant role of additive genetic components for their expression and also indicating better scope for utilization of direct selection for those traits. The genotypes are grouped into 5 clusters based on 16 morphological traits i.e. Plant height, root length, vegetative dry weight, leaf-area index, days to 50% flowering, no. of branches per plant, number of capsules per plant, capsule length, number seeds per capsule, 100 seed weight, seed yield per plant. The maximum inter-cluster distance noticed between cluster II and IV indicating their most diverse relationship. Genotypes of two clusters with wider genetic diversity and with desirable agronomic traits were selected as promising genotypes for hybridization programs. Crosses can be made between genotypes of cluster II with genotypes of cluster IV to achieve promising recombinants.

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References

Bedigian D, Van der Maesen LJ. Slimy leaves and oily seeds: Distribution and use of Sesamum spp. and Ceratotheca sesamoides (Pedaliaceae) in Africa. InPlant Resources of Tropical Africa: Proceedings of the First PROTA International Workshop, Nairobi, Kenya, 23-25 september 2002/GH Schmelzer and EA Omino 2003 (pp. 271-273). https://doi.org/10.1663/0013-0001(2004)058[0122:DFABRE]2.0.CO;2

Bedigian D, Seigler DS, Harlan JR. Sesamin, sesamolin and the origin of sesame. Biochemical Systematics and Ecology. 1985 May 23;13(2):133-9. https://doi.org/10.1016/0305-1978(85)90071-7

Obiajunwa EI, Adebiyi FM, Omode PE. Determination of essential minerals and trace elements in Nigerian sesame seeds, using TXRF technique. Pakistan Journal of Nutrition. 2005;4(6):393-5. https://doi.org/10.3923/pjn.2005.393.395

Brown KH, Rivera JA, Bhutta Z, Gibson RS, King JC, Lönnerdal B, Ruel MT, Sandtröm B, Wasantwisut E, Hotz C, International Zinc Nutrition Consultative Group (IZiNCG. International Zinc Nutrition Consultative Group (IZiNCG) technical document# 1. Assessment of the risk of zinc deficiency in populations and options for its control. Food and nutrition bulletin. 2004 Mar;25(1 Suppl 2):S99-203. https://doi.org/10.1177/156482650402500220

Roeser HP. Iron. J. Food Nutr., 1986; 42:82-92

Yokota T, Matsuzaki Y, Koyama M, Hitomi T, Kawanaka M, Enoki?Konishi M, Okuyama Y, Takayasu J, Nishino H, Nishikawa A, Osawa T. Sesamin, a lignan of sesame, down?regulates cyclin D1 protein expression in human tumor cells. Cancer science. 2007 Sep;98(9):1447-53. https://doi.org/10.1111/j.1349-7006.2007.00560.x

Ashri A. Sesame . In: Oil Crops of the World: their breeding and utilization. Eds. G. Robbelen, R.K. Downey& A. Ashri McGraw Hill, NY. 1989;375-387.

Fukuda Y, Nagata M, Osawa T, Namiki M. Contribution of lignan analogues to antioxidative activity of refined unroasted sesame seed oil. Journal of the American Oil Chemists' Society. 1986 Aug;63(8):1027-31. https://doi.org/10.1007/BF02673792

Prithviraj SK, Parameshwarappa SG. Genetic variability studies for quantitative traits in germplasm collections of sesame (Sesamum indicum L.). Journal of Farm Sciences. 2017;30(2):149-52.

Singh VK, Pramanik K, Ray SS, Pal K. Development and characterization of sorbitan monostearate and sesame oil-based organogels for topical delivery of antimicrobials. Aaps Pharmscitech. 2015 Apr;16(2):293-305. https://doi.org/10.1208/s12249-014-0223-7

Pathak N, Rai AK, Kumari R, Bhat KV. Value addition in sesame: A perspective on bioactive components for enhancing utility and profitability. Pharmacognosy reviews. 2014 Jul;8(16):147. https://doi.org/10.4103/0973-7847.134249

Faostat, FA.."Statistics Division." Food and Agriculture Organization of the United Nations. 2016

Food and Agriculture Organization Statistical Databases(FAOSTAT).Available online:http://faostat.fao.org/(accessed on 5th February 2020)

Bedigian D, Smyth CA, Harlan JR. Patterns of morphological variation in Sesamum indicum. Economic Botany. 1986 Jul; 40(3):353-65. https://doi.org/10.1007/BF02858991

Bisht IS, Mahajan RK, Loknathan TR, Agrawal RC. Diversity in Indian sesame collection and stratification of germplasm accessions in different diversity groups. Genetic Resources and Crop Evolution. 1998 Aug;45(4):325-35. https://doi.org/10.1023/A:1008652420477

Murty BR, Arunachalam V. The nature of divergence in relation to breeding systems in some crop plants. Indian Journal of Genetics and Plant Breeding. 1966;26:188-98.

Hawkes JG. The diversity of crop plants. Harvard University Press; 2013 Oct 1.

Arriel NH, Di Mauro AO, Arriel EF, Unêda-Trevisoli SH, Costa MM, Bárbaro IM, Muniz FR. Genetic divergence in sesame based on morphological and agronomic traits. Crop Breeding and Applied Biotechnology. 2007 Sep 1:253-61. https://doi.org/10.12702/1984-7033.v07n03a04

Iqbal A, Akhtar R, Begum T, Dasgupta T. Genetic estimates and diversity study in Sesame (Sesamum indicum L.). IOSR Journal of Agriculture and Veterinary Science. 2016;9(8):01-5. https://doi.org/10.9790/2380-0908010105

Mahalanobis PC. On the generalized distance in statistics. National Institute of Science of India. 1936 India. 2: 49-55.

Hanson CH, Robinson HF, Comstock RE. Biometrical studies of yield in segregating populations of Korean lespedeza 1. Agronomy journal. 1956 Jun;48(6):268-72.

Lush JL. Animal breeding plans. Iowa State University. Press. Ames. Mat. 1949

Rao CR. Advanced statistical methods in Biometric Research, John Wiley & Sons, Inc., New York. 1952.

Johnson HW, Robinson HF, Comstock RE. Genotypic and phenotypic correlations in soybeans and their implications in selection. Agronomy journal. 1955;47(10):477-83. https://doi.org/10.2134/agronj1955.00021962004700100008x

Solanki ZS, Gupta D. Variability and character association among quantitative characters of sesame. JOURNAL OF OILSEEDS RESEARCH.. 2003;20:276-7.

Saha S, Begum T, Dasgupta T. Analysis of genotypic diversity in sesame based on morphological and agronomic traits. In International Research Conference. Tropentag, Gottingen, Germany 2012 Sep 19 (pp. 19-21).

Shadakshari YG, Virupakshappa K, Shivashankar G. Genetic variability studies in germplasm collection of sesame (Sesamum indicum L.). Mysore Agricultural Research Journal. 1995;29:133-7.

Bhattacharjee M, Iqbal A, Singha S, Nath D, Prakash SH, Dasgupta T. Genetic diversity in Sesamum indicum L. Bangladesh Journal of Botany. 2019 Sep 30;48(3):497-506. https://doi.org/10.3329/bjb.v48i3.47784

Sumathi P. and Murlidharan V. Analysis of genetic variability, association and path analysis in the hybrids of sesame (Sesamum indicum L.), Tropical Agricultural Research and Extension. 2010;13(3): 63- 67. https://doi.org/10.4038/tare.v13i3.3140

VanishreeLokesha R, Goudappagoudra R, Chetankumar NB. Analysis of genetic variability for yield and its components in sesame (Sesamum indicum L.)International Journal of Plant Sciences.2013; 8(1):91-93.

Sudhakar N, Sridevi O, Salimath PM. Variability and character association analysis in sesame, Sesamum indicum L. Journal of Oilseeds Research. 2007;24(1):56.

Narayanan R and Murugan S, Studies on variability and heritability in sesame (Sesamum indicumL.). Intl. J. Curr.Agric. Res., 2013; 2 (11) :52-55.

Parameshwarappa SG, Palakshappa MG, Salimath PM, Parameshwarappa KG. Studies on genetic variability and character association in germplasm collection of sesame (Sesamum indicum L.). Karnataka Journal of Agricultural Sciences. 2009;22(2):252-4.

Jadhav RS and Mohrir MN, Genetic variability studies for quantitative traits in sesame (Sesame indicum L.). ElectronicJ. Pl. Breed., 2012;3(4) : 1009-1011.

Mishra A. Comparison of varietal performance and inter-relationship among yield attributing traits of sesamum (Sesamum indicum L.). ENVIRONMENT AND ECOLOGY. 1997;15:478-81.

Singh PK, Dixit RK, Yadav RK. Estimates of genetic parameters, character association and path analysis in sesame. CROP RESEARCH-HISAR-. 1997;13:115-20.

Published

12-03-2022

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1.
Roy B, Pal AK, Basu AK. The estimation of genetic variability and genetic divergence of some advance lines of sesame based on morphological traits. Plant Sci. Today [Internet]. 2022 Mar. 12 [cited 2024 Nov. 21];. Available from: https://horizonepublishing.com/journals/index.php/PST/article/view/1407

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Research Articles